Fitzpatrick Referrals was founded in 2005 by Professor Noel Fitzpatrick, whose vision was to create an environment where it would be truly possible to marry compassionate care with excellence in veterinary medicine.

The Centre in Eashing is located against a beautiful backdrop in rural Surrey and specialises in the treatment of Orthopaedic and Neurological conditions in small companion animals, it also boasts a state of the art Rehabilitation Centre within the same building.

We passionately believe that every single animal entrusted into our care should be treated as if it was our own. We promise never to advise treatment just because it is possible, but only when it is right for your animal friend at that moment in time.

Launched on 2nd September 2015, the new state of the art Fitzpatrick Referrals animal hospital based in Guildford is the first of its kind in Europe and aims to change the way cancer is treated in companion animals.

Whilst this building will impress and contain the latest equipment, it is the team of people inside that makes it truly outstanding.

We have brought together world class medical and surgical oncologists with extensive experience in advanced radiation procedures, and the best nursing teams in order to gain a better understanding of animal cancer and to use that knowledge to deliver the very best treatment to animals.

We aim to deliver all of the options to all of the animals all of the time, and we aim to work with our human colleagues to better inform the treatment of cancer for everyone.

With Fitzpatrick Referrals Orthopaedics and Neurology, we will also be the only centre in Europe offering custom-designed 3D-printed limb and joint salvage prostheses.

Refer a Patient

Fitzpatrick Referrals Oncology Service focuses on offering advice, options and therapy to families who want to know what exists in modern cancer care for animals.
This is a centre where the vision of improving the quality of animals’ lives and ending cancer in pets drives all we do.

Soft tissue surgery refers to any type of surgery for treatment of diseases which are not orthopaedic or neurologic. As such, it includes surgery of most organs, the stomach, intestines, liver, kidneys, bladder, lungs, heart, as well as surgery of other soft parts of the body, including skin, muscle, fat and so on.

Our specialists have extensive training in Interventional Radiology and the team offer unrivalled excellence in this field for you and your pet. Our specialists are experts in delivering leading edge techniques to treat animals with conditions that were previously considered untreatable.

Relationship of brain parenchyma within the caudal cranial fossa and ventricle size to syringomyelia in cavalier King Charles spaniels

Relationship of brain parenchyma within the caudal cranial fossa and ventricle size to syringomyelia in cavalier King Charles spaniels

Objective

To assess if the volumes of the caudal cranial fossa (CCF), parenchyma within the caudal cranial fossa (CCFP) or ventricles (V) are associated with syringomyelia (SM) in cavalier King Charles spaniels (CKCS) with Chiari-like malformation (CM). To evaluate

Methods

Magnetic resonance images of 59 CKCS with CM were retrospectively reviewed and grouped with or without SM. Three-dimensional images were created and volumes of the fossae, brain parenchyma and ventricular system were calculated from which percentages of CCF, CCFP and V were created. If present, syrinx size was measured from its maximal transverse width. The percentages were statistically compared between groups, and correlation between percentages and syrinx dimensions was made.

Results

CKCS with SM had significantly higher CCFP (P=0·0001) and V (P=0·0002) to those without but no significant difference in CCF (P=0·925). There was a positive correlation between CCFP and syrinx width (Pearson r=0·437) and ventricle size to syrinx width (Spearman r=0·627).

Clinical relevance

A more marked overcrowding of the CCF is associated with SM, which may explain the high incidence of SM in CKCS with CM. The association between ventricle and syrinx dimensions supports the theory that SM development is the result of altered cerebrospinal